KR101485118B1 - a system of tidal using in power generation - Google Patents

Abstract

The present invention relates to a generation system using tidal energy which easily generates power through a generator connected to the generation gear parts on both sides by transferring a rotational force from a turbine for generation generated from a flood tide and an ebb tide to the generation gear parts through the chains. Supports (120) are vertically formed on both sides of the top of a foundation support part (110) placed on the sea bottom. A generation turbine (130) is horizontally formed under the gap between the supports (120). Rotation gear parts (140) are installed on rotary shafts (132) connected to both sides of the generation turbine (130). Support rods (150) are horizontally formed on the ends of the rotary shafts (132). The generation turbine (130) is installed in the ends of the support rods (150). A generator support (170), on which a generator (160) is installed, is installed above the generation turbine (130). Support parts (180) are inserted into both sides of the generator (160). Generation gear parts (190) are installed in both sides of the generator (160). Fixtures (200) are fixated to the top of the supports (120). Lifting cylinders (230) are installed in the bottom of the fixtures (200) installed in the top of the supports (120).

Description

[0001] A system of tidal using in power generation [

The present invention relates to a power generation system using a tidal force which is installed between relatively large and uniform canyons of a tide interval and can generate power continuously by rotating a power generation turbine while a difference between tides is generated More specifically, the rotational force of the power generation turbine generated by tide and ebb is transmitted to the both-side power generation gear portion through the chain, so that the power can be easily produced through the generator connected to the both side power generation gear portions. Unit can be easily produced even under the weather conditions of bad weather without requiring any unit, and the power generation turbine and the power generation room can be raised and lowered continuously during the generation of the tide difference, Both sides of the generator support with the turbine and generator room are mounted on the support So that power can be easily produced even under adverse climatic conditions while rotating gear parts provided on both sides of the power generation turbine and power generating gear parts provided on both sides of the power generator are rotationally driven by chains, To an electric power generation system using a tidal force capable of doubling the electric production efficiency through the electric power generation system.

In general, the tidal power generation, which is generally known, can obtain energy by converting the flow of the tidal power into a rotational force under the condition of a rapid flow of the tidal water in accordance with the change of tide and ebb of the sea. There is a known method of generating electricity by discharging the seawater in a dam and discharging it when necessary, and a power generation device using the flow of seawater generated by the tidal difference vehicle.

However, in the case of the tidal power generating apparatus which performs the power generation while trapping the seawater in the tidal state as mentioned above and discharging it when necessary, it is difficult to widely spread the dam due to the construction of a large-capacity dam, Since companies need to construct and manage their facilities after selecting their location through large-scale investment, it has been difficult to generalize and supply the tidal power generation equipment due to cost, time and geographical requirements.

In addition, in the case of a power generation apparatus using seawater flow, a power generation turbine and a generator are installed in a buoyant body floating in seawater, and a strong tidal force due to tide and ebb is rotated in the power generation turbine, And has a basic structure capable of generating electric power by driving the generator through the power transmission device.

However, such a tidal power generator is not large enough to generate enough torque to produce sufficient electric power in actual production, can not guarantee smooth operation, and is sufficient for external forces due to tide and ebb and other climatic conditions. It is impossible to secure durability that can withstand such a situation, and it is not practically used.

On the other hand, in recent years, a tidal power generator having a power generation chamber and a power generation section suspended in seawater and being easily installed regardless of climatic conditions or geographical conditions is known in Korean Patent Registration No. 10-1003457.

1 and 2, the buoyancy unit 10 includes a buoyancy unit 10 installed to float on seawater, and a buoyancy unit 10 on the buoyancy unit 10, A guide piercing member 20 for guiding the lifting and lowering of the piercing member 10 and preventing the piercing member 10 from being displaced by seawater, a power generating chamber 30 installed on the piercing member 20 and having a plurality of generators installed therein, A power generating unit 40 installed on the buoyancy unit 10 to generate a rotational power in conjunction with the buoyancy unit 10 up and down operations, To the power generation room (30).

2, when the height of the buoyancy unit 10 changes according to the tides and tide of the seawater, when the height of the buoyancy unit 10 changes, the interlocking member 43 moves up or down, The rack gear portion 43a of the interlocking member 43 rotates the interlocking gear portion 41b of the power generating portion 40 to rotate the interlocking gear 43 so that the interlocking gear portion 41b can generate the rotational force. The rotary member 41 is integrally rotatably mounted so that the rotary member 41 accelerates the rotational force generated by the power generating portion 40 and is transmitted to the power generating chamber 40 through the power- 30 to the driven gear portion 31 and to generate electric power in the power generating chamber 30 by the rotation of the driven gear portion 31. [

However, in the above-described tidal power generation apparatus, the interlocking member 43 installed on the upper side of the buoyancy unit 10 generates extreme flow due to waves and the like, so that the rack gear portion 43a And the interlocking gear portion 41b of the power generating portion 40 generate mutual flow to promote breakage of the rack gear portion 43a and the interlocking gear portion 41b engaged with the rack gear portion 43a, The power transmission unit 50 is installed in a zigzag manner between the power generating unit 40 and the power generating chamber 30 in which the generator is installed. So that it is difficult to manufacture and install the tidal power generator due to the complicated structure.

Korean Registered Patent No. 10-1003457 (Registered Date: December 16, 2010)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a power generating turbine for a power generating turbine, It is possible to easily produce electric power through a generator and to easily produce electric power even in bad weather conditions without any need for a separate buoyancy unit. In addition, the power generation turbine and generator room So that both sides of the power generator turbine with the power generation turbine and the generator room are supported on the support member in a cantilever shape so as to prevent breakage and to easily generate power even in bad weather conditions And a turbine provided on both sides of the power generation turbine Via a chain portion power generation are installed on both sides of the generator and the fisherman gear respectively to provide a power generation system using the assistance that can be rotationally driven by doubling the efficiency of electricity generation by the generator.

Technical Solution According to an aspect of the present invention, there is provided a power generation system using a tidal force,

A base supporting part placed on the seabed;

A support having a U-shaped cross section vertically installed on both sides of the base supporting part and having a rack gear part formed on one side wall;

A power generating turbine which is installed on the lower side between the two side supports and is provided with a plurality of rotary blades;

A rotary gear unit installed on a rotary shaft provided on both sides of the power generation turbine and installed to rotate integrally with the rotary shaft;

The power generating turbine according to any one of claims 1 to 3, wherein a support bar is disposed on both ends of the rotation shaft of the power generation turbine, and the support shaft is installed at an end of the support rods, and engaged with a rack gear portion formed on a wall surface of the support, Gear;

A generator support horizontally spaced apart from the power generation turbine and spaced a distance from the upper end of the support to form a generator,

A second worm gear and a second worm gear installed on both sides of the generator support to engage with a rack gear formed on a wall surface of the support and to raise and lower a generator support provided with a generator;

A power generation gear unit installed on both sides of the generator to generate electric power of the generator;

A chain in which both side rotary gear portions of the power generation turbine and both side power generation gear portions of the generator are rotatably connected;

A fixing table provided on the upper side of the U-shaped both side supports and having a rope winding portion connected to the driving motor;

A wire rope supported between the rope fastener installed on both sides of the generator support and the rope winding part of the fixing table to support the generator support; And

And an end of the piston rod is fixed to both ends of the generator support so that the generator support and the power generation turbine installed on the lower side of the generator support stand are lifted and lowered, And a cylinder connected to the power generating unit.

Further, the present invention is characterized in that a water level sensor is provided on the outer surface of a support rod which is provided at both ends of the rotation shaft of the power generation turbine, and an electrical signal is transmitted to the up / down cylinder and the drive motor installed in the fixed table.

In addition, the support rods are horizontally laid over rolling bearings at both ends of the rotation shaft of the power generation turbine.

According to the tidal power generation system of the present invention, the rotational force of the power generation turbine generated by tide and ebb is transmitted to the both-side power generation gear portion through the chain, so that the power can be easily produced through the generator connected to the both- In addition, it is possible to easily produce electric power even in bad weather condition without any need for a separate buoyancy unit, and also to continuously generate electric power by raising and lowering the power generation turbine and the power generation room while the tide difference is generated And both ends of the generator support having the power generation turbine and the generator room are supported in a solid state on a support member having a cross section so that damage can be prevented and power can be easily produced even under adverse weather conditions, A rotary gear portion provided on both sides and a power generator installed on both sides of the generator Fisherman has excellent effects that can be rotated by driving doubling the electricity generation efficiency through the generator via a chain, respectively.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be understood by those skilled in the art that it is readily known.

1 is a side view showing a conventional tidal power generator.
Fig. 2 is an enlarged cross-sectional view of a main part of a power acceleration transmitting unit provided in the tidal power generating device of Fig. 1; Fig.
3 is a front cross-sectional view of a power generation system using a tidal force according to the present invention.
Fig. 4A and Fig. 4B are enlarged structural views of a portion A and a portion B in Fig. 3;
5 is a schematic perspective view showing a power generation turbine of a power generation system using a tidal force according to the present invention.
6 is a schematic structural view of an up / down transfer part for raising and lowering a power generation turbine and a power generation room of a power generation system using a tidal force according to the present invention.

Hereinafter, a tidal power generation system according to the present invention will be described with reference to the accompanying drawings.

FIG. 3 is a vertical sectional view of a power generation system using a tidal power according to the present invention, FIGS. 4A and 4B are enlarged structural views of parts A and B of FIG. 3, FIG. 6 is a schematic structural view of an up / down transfer part for raising and lowering a power generation turbine and a power generation room of a power generation system using a tidal force according to the present invention. The basic support part 110 And a rack gear portion 121 is formed on one side wall of the both side support rods 120. The rack gear portion 121 is formed on one side wall of the side support rods 120,

A power generating turbine 130 having a plurality of rotating blades 131 is horizontally disposed on the lower side between the two side support rods 120. On a rotating shaft 132 provided on both sides of the power generating turbine 130, And a support rod 150 is formed in a longitudinal direction of the both side rotation shafts 132 at an end portion of the both side rotation shafts 132 via a rolling bearing B so as to be rotatable integrally with the rotation shaft 132, The power generation turbine 130 is installed to be raised and lowered by engaging with a rack gear portion 121 formed on a wall surface of the support base 120. [

A generator support 170 is disposed on the upper side of the power generating turbine 130 between the side supports 120 so as to be spaced from the generator support 160 by a predetermined distance. A second gear and a down gear 181 are installed through the first gear 180 and the second gear 181 to engage with the rack gear 121 formed on the wall surface of the support base 120 to move the generator support 170, Respectively.

At this time, power generating gear portions 190 for generating electric power of the generator are installed on both sides of the generator 160, and are installed rotatably with the both-side rotary gear portion 140 and the chain (C).

In addition, a fixing table 200 on which a rope winding unit 210 connected to the driving motor M is fixed is installed on the upper side of the both side support rods 120. On both sides of the generator support rope 170, And is connected to the rope winding hole 210 through the wire rope 220 so as to support the generator support 170.

A lifting cylinder 230 is installed on the bottom of the fixed base 200 fixed to the upper portion of the support base 120. An end of the piston rod 231 of the lifting cylinder 230 is connected to the generator support And installed on both ends of the generator support 170 and the power generation turbine 130 installed at the lower side thereof.

A water level sensor 240 is installed on the outer surface of the support rod 150 at the ends of the rotation shafts 132 of the power generation turbine 130 so that an electric signal is transmitted to the up and down cylinder 230, And the drive motor (M).

The tidal power generation system of the present invention constructed as above will be described in detail as follows.

As shown in Figs. 3 to 6, the power generation system using the tidal force installed between the canyons having a relatively large difference in the tide interval and in a uniform sea has a structure in which a cross section is formed on both sides of the upper portion of the base support portion 110, In the state where the U-shaped supports 120 are vertically installed, a rack gear 121 is formed on one side wall of the vertically installed two side supports 120.

A power generating turbine 130 having a plurality of rotating blades 131 is horizontally disposed on the lower side between the two side supports 120 so that strong tidal force due to tide and ebb of the sea is integrated with the rotating blades 131 The rotation gear portion 140 provided on the rotation shaft 132 which is rotated by the rotation of the power generating turbine 130 and is disposed on both sides of the power generating turbine 130 rotates integrally with the rotation shaft 132, .

A generator 160 is installed above the power generator support 170 spaced a predetermined distance apart from the power generating turbine 130 between the both side supports 120. The generator 160 is installed on both sides of the generator 160, A rotary gear portion 140 provided on the rotary shaft 132 of the power generating turbine 130 and the power generating gear portion 190 are connected to a chain and the rotational force of the power generation turbine 130 generated by the tide and the tide is transmitted to the both side power generation gear portions 190 through the chain c, The rotational force is supplied to the generator 160 installed at one side of the generator 160 so that the electric power can be easily produced, and also the electric power can be easily produced even under adverse weather conditions.

The support rods 150 are disposed on the ends of the rotation shafts 132 of the power generation turbine 130 through the rolling bearings B so that the first and second support rods 150, The down gear 151 is engaged with the rack gear portion 121 formed on one side wall of the U-shaped support base 120 so that the power generating turbine 130 can be raised and lowered, A rack gear portion 183 is formed on the front and rear wall surfaces of the U-shaped cross-section of the U-shaped support base 120, and a second worm gear 181 is installed at the end of the support 180, The generator support 170 installed with the generator 160 can also be raised and lowered.

Therefore, when the height of the sea surface of the seawater is changed by tide and ebb, the generator support 170 having the power generation turbine 130 and the power generation room 160 can be continuously raised and lowered, A rotary gear portion 140 provided on both sides of the power generation turbine 130 and a power generation gear portion 190 provided on both sides of the generator 160 are rotationally driven via a chain C to rotate the generator 160 Thereby doubling the electricity production efficiency.

A fixing table 200 is fixed to the upper side of the both side supports 120 and provided with a rope winding unit 210 connected to the driving motor M, And the generator support base 170 provided with the power generation turbine 130 and the upper generator chamber 160 are firmly supported by the rope winding hole 210 through the wire rope 220. [ The power generation turbine 130 and the generator support 170 are always kept in a horizontal state by the forward and reverse rotation of the rope winding unit 210 spoken by the drive motor M in accordance with the change of the water level of the seawater .

The piston rod 231 of the lifting cylinder 230 is lifted and lowered by a lifting cylinder 230 at the bottom of the lifting base 200 fixed to the upper side of the c- The end portions are fixed to both ends of the generator support 170 to easily raise and lower the generator support 170 and the power generation turbine 130 installed thereunder.

At this time, the water level sensor 240 is installed on the outer surface of the support rod 150 which is provided at the ends of the rotation shafts 132 of the power generation turbine 130 so that the water level sensor 240 senses the water level of the seawater, Descending cylinder 230 and the drive motor M provided on the fixed table 200 to automatically raise and lower the generator support table 170 provided with the power generation turbine 130 and the generator chamber 160 on the upper side thereof And can be lowered.

110 ... base support 120 ... support
121 ... rack gear part 130 ... power generation turbine
131 ... rotation blade 132 ... rotation axis
140 ... rotation gear part 150 ... support rod
151 ... first win, descend gear 160 ... generator
170 ... generator support 180 ...
181 ... 2nd worm, descending gear 182 ... rope fastener
190 ... power generation gear portion 200 ... fixed portion
210 ... rope winding part 220 ... wire rope
230 ... w / lower cylinder 231 ... piston rod
240 ... Water level sensor B ... Rolling bearing
C ... chain M ... drive motor

Claims (3)

In a power generation system using a tidal force,
A base supporting part placed on the seabed;
A support having a U-shaped cross section vertically installed on both sides of the base supporting part and having a rack gear part formed on one side wall;
A power generating turbine which is installed on the lower side between the two side supports and is provided with a plurality of rotary blades;
A rotary gear unit installed on a rotary shaft provided on both sides of the power generation turbine and installed to rotate integrally with the rotary shaft;
The power generating turbine according to any one of claims 1 to 3, wherein a support bar is disposed on both ends of the rotation shaft of the power generation turbine, and the support shaft is installed at an end of the support rods, and engaged with a rack gear portion formed on a wall surface of the support, Gear;
A generator support horizontally spaced apart from the power generation turbine and spaced a distance from the upper end of the support to form a generator,
A second worm gear and a second worm gear installed on both sides of the generator support to engage with a rack gear formed on a wall surface of the support and to raise and lower a generator support provided with a generator;
A power generation gear unit installed on both sides of the generator to generate electric power of the generator;
A chain in which both side rotary gear portions of the power generation turbine and both side power generation gear portions of the generator are rotatably connected;
A fixing table provided on the upper side of the U-shaped both side supports and having a rope winding portion connected to the driving motor;
A wire rope supported between the rope fastener installed on both sides of the generator support and the rope winding part of the fixing table to support the generator support; And
And an end of the piston rod is fixed to both ends of the generator support so that the generator support and the power generation turbine installed on the lower side of the generator support stand are lifted and lowered, And a cylinder connected to the generator.
The turbine generator according to claim 1, wherein a water level sensor is provided on an outer surface of a support rod that is provided at both ends of the rotation shaft of the power generation turbine, and the electric signal is transmitted to a win / system.
The tidal power generation system according to claim 1, wherein support rods are horizontally disposed through rolling bearings on both rotation axes of the power generation turbine.

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